Conveyer drive mechanism



Oct. 6, 1953 G. TODD 2,654,462

coNvEYER DRIVE MECHANISM.

Filed may 28, 1949 1o sheets-sheet 1 INVENTOR uERnNTooD oct. 6, 1953 G, TODD 2,654,462

CONVEYER DRIVE MECHANISM Filed May 28, 1949 10 Sheets-Sheet 2 mvsuron GUERIN TODD ATTORNEYS Oct. 6, 1953' G. TODD 2,654,462

CONVEYER DRIVE MECHANISM Filed May 28, 1949 l0 Sheets-Sheet 5 ATTORNEY S Filed May 28, 1949 Oct. 6, 1953 G. TODD CONVEYER DRIVE MECHANISM 10 Sheets-Sheet 4 GUERIN T'oDD AT TOR NE Y S Oct. 6, 1953 G, TODD CONVEYER DRIVE MECHANISM.

l0 Sheets-Sheet 5 Filed May 28, 1949 INVENTOR GUERIN TODD ATTORNEY S Oct. 6, 1953 G. TODD 2,654,462

CONVEYER DRIVE MECHANISM Filed May 28, 1949 10 Sheets-Sheet 6 lNvEnToR GUERIN TODD Uw y ATTORNEYS Oct. 6, 1953 G, TODD CONVEYER DRIVE MECHANISM Filed may 28, 1949 10 Sheets-Sheet 7 .LHSIBMHBLNHOO oct. 6, 1953 TODD CONVEYER DRIVE MECHANISM 1o sheets-sheet s Filed May 28, 1949 ozuwm..

lill .mdd

INVENTQR .GUER IN TODD ATTORNEYS 10 Sheets-Sheet 9 Filed May 28, 1949 INVENTOR Z5 GUERIN TODD ATTORNEYS Oct. 6, 1953 G. TODD CONVEYER DRIVE MECHANISM l0 Sheets-Sheet 10 Filed May 28, 1949 INVENTOR G UERIN TODD ATTORNEYS Patented Oct. 6, 1953 UNI TED ',S TAT-ES PATENT fOFiFlC'E CONVEYER VDRIVE fMEGHA-NISM l'Guerin Todd, Matawan, N. `.1., assgnonto fHan- .son-'Van WinkleMunning Company,lMaltawan, `N. J., a corporation .of New Jersey Application'Mayj28, 1949,.-Serial:No.';.ll5,994

31l2Claims. .1

This application relates "to processing :apparatus, particularly to automatic l,processing Vapparatus, adapted for :conveying -Work pieces through a plurality of different baths for aiomlplete Work cycle.

Many industriesl and different workfcyclesgnd use forautomatic processing machinery. Among other operations in'which'iautomatic processing machinery .canbe used :are the testing ofsoven or refrigerator thermostats by dipping the :bulb in `a `plurality 'of .solutions :at known temperatures and 'recording itherresults' on instruments mounted for "-movement "with 'the bulbs, 'heat treating cyoles,testing 2cycles,:as"for.. examplefthe testing for leaks in refrigerator frevaporators :or similar enclosures `which fare submerged liquid in a glass-Walleditankforthelike, degreasing operationscleaningoperationsg etchingva-rious coating processes, and electro-processing cycles, such as electroplating.

-It is in connection-with thelelectroeprocessing art that machines of this type find their Widest use, and f for this "1eason, the present invention hasbeen illustrated' and vdesc'ribed in connection with an electroplating machine. It is not intended, however; thatV this 'invention Will'fbelimited to this type'ofmachineor r cirmimscribed in any Way by disclosing it in connection with this' particular' type of'process.

In general an automaticprocessingmachine comprises a lfratrie,` a plurality: of `conveyorY arms mounted 'about the frame, -conveyorfmeans'H-for moving the arms about the frame toconveyfthem along a line oftanksv which may-eitheribearranged in a'rovl' or in' a 'closed circuitousipath and elevator means for peridica-ily"liftingrthe carrier arms .sothatthey will "clear `the'partitionsbetvveen adjacent tanks. "Thisgeneral-type of apparatus'is well-slanovvn` inthe industry, and in one arrangement" the conveyorrmeans takes the form'of a pair "of 'vertically spaced; chains supported at their ends on lsprockets mounted on vertical shafts. Extending' Yloetvveen'these chains at a plurality of lpointstherealollg,fare vertically arranged guide members. r"'Thecarrier arms are slidably mounted in Vtheguidenfmbers, and When resting at the-bottom`thereofythe Work pieces on the' carrier arms are submerged in the treating solutions; and 'vWhen thef carrier arms areraised tothe topsof the verticalguicles, the vWork pieces -are in' position to be :conveyed over the partitions betweenlthe'tanks.

lThe elevatorffrneans inthe Amachinercomprises a structure vertically reciprocable on therma- 'chine nframe. and Asow arranged :as: to: :engagefthe carrier 'arms rat therproper 4.positions in .their travel and-t:'liitf themso that they 'Willnclear the :partitionsbetweenl ther-tanks. \It..is `:infconi2 nection l--with this particular ,type .,of .processing machine ,that ,this invention isshown A an. l ie scribed.

:Machines ...of A`the utype ,described v`above lare quite'largef occupying aggreatdeal. of iioor `s .pace and requiring considerable "head, room. Accordingly, any Asaving.thatcan loe-made intheoverall size-:oi the.machine. .andthe headroom required l)thereor is.of benetto the purchaser, notonlyn the Spacemeduired foriinstalling the machine, but .With lregard to .the .cost of the machine sand-.its installation. ThedimeDSiQns of :fthe k.machine are .also of ,vital lconsideration to the manufacturer, Y:especially as .regards the height of the machine becauseof the Y great difficulty of shipping the machines in a .properly protected `manner .if the ,height l exceeds a predeterminedamount.

,Inrecent lyears the. .sizesof ,work' pieces which are handledbyeautomatic X processing machinery havev been increased. At. tthe .present `time" large engine parts,.aircraf,t,part s, .such as winstootions Tandtcowlinga vandfotlzner twork pieces .v -of similar size iareloeing. .treategflf.byautomatic Aprocessing: machinery. .It nwill .be evident that .Work pieces v.of -Ethis naturetrequiredeep xtanks and high lifts :of .theicarriersarms in order to Aclear the v.partitions .between .the tanks .when the Workpieces arefconveyed.therealong. 4 In cider to.,keep. .a .machine-,of this nature assmall as possible, vit is [desirable .that ,the carrier arms lift from .theitanksaandet Adown intov the tanks on as steep a path as possibleaand thattheir path While .,beingconveyedpfrom one y.tank to anotherbeas. at vas possible.

The primary-obj ect l. of the 2 present invention is to.1 provide an improved driyefor the `.elevatingmeansA andgconveyirigmeans of ,anautomatic processing machine suohjhattheliitpattern of the carrier arms is steep on bothsides and relatively at Aacross thettop.

i It isran .object 0f @this .invention v.to provide elevator .and `conilley0r ,drive .means for .automatic processing machinery such that the overall sizeof ther iprooesing machine is kept as Y.small .4 as ,possible A still furtherfobjectof this invention is to provide an` improved .arrangement for, actuating 'the elevator and the. fconveyoioi .aprocessingrna ohine which is relatively inexpensive to construct .andwhich ,is eiiicientin; operation.

.,-A still further.y Object. of this invention is lto provide .a drive .means `for aneleyator and conveyor..Oria-processing .machineinyvhich it is irnpossible to get the elevatoizandconveyor out of step and. -,in which :.-they-/are .always .l positively ,synchronizing- Vin ...operation Astill further, obj ect` of .this invention. is .to f pro- 3 vide an elevator and conveyor drive mechanism which is adaptable for any size machine and which can be extended to operate these elements of a very long processing machine, if desired, and Without changing any of the basic drive elements. n large processing machinery of this type it has been the practice to form most of the current conducting elements of heavy cast bronze or brass. The casting of these elements results in a very satisfactory work piece both as to strength and current conducting capacity, but de tracts from the flexibility of the machinevin that different castings must be made for machines which are to handle dilerent types of Work pieces. It is accordingly, still another object of this invention to provide. an improved element for automatic processing machines and the like which is adapted for supporting the work piece carriers and which is so made that it can readily be adjusted as to size to accommodate different types of work pieces and without entailing the making of a plurality of diiferent patterns as had been necessary heretofore.

It is also desirable in connection with automatic processes having a plurality of individual baths through which the work pieces are carried to minimize the amount of solution carried over from one tank to another, and it is a still further object of this arrangement whereby the Work pieces are adequately drained of solution from one tank before being conveyed over and set down into the next tank.

It is also an object of this invention to provide an arrangement wherein the speed of the drive to the elevator and conveyor of a processing machine can be regulated during the whole, or any part, of the cycle of the machine,

These and other objects and advantages will become more apparent upon reference to the following description taken in connection with the accompanying drawings in which:

Figure l is a diagrammatic plan view showing one type of Work cycle adapted for being carried out by a processing machine of the type with which this invention is concerned. It will be understood that the work cycle represented in Figure 1 is not necessarily typical or representative but merely shows one cycle which can be advantageously carried out by an automatic processing machine.

Figure 2 is a plan view looking down over the physical embodiment of a machine arranged to carry out the process illustrated in Figure 1;

Figure 3 is a side elevation of the machine shown in Figure 2 and with a portion of the machine broken away in order better to reveal the structure thereof;

Figure 4 is an end view of the machine looking in at the left from Figure 3 and shows still other ccnstructional details in connection with the machine;

Figure 5 is a somewhat enlarged fragmentary view and may be considered as a section on the line 5 5 of Figure 3. This view illustrates the end of the elevator arrangement and the manner in which the elevator channels at the opposite sides of the machine are tied together and connected with the elevator actuating chains;

Figure 6 is a plan View and is indicated by the line S-Ei on Figures 3 and 4. Figure 6 shows the elevator and conveyor drive arrangement according to this invention;

Figure 7 is a vertical section indicated by the section line 7 1 on Figure 6 and shows the connection between the elevator drive mechanism e and the power driven crank arm which actuates it;

Figure 8 is a vertical section indicated by the line 8-8 on Figure 6 and shows the connection cf one part of the elevator drive mechanism with another part thereof;

, Figure 9 is a side view showing the crank arms for driving the conveyor and elevator and also showing the conveyor drive end of the machine;

Figure 10 is a perspective View showing the drive for the conveyor of the machine;

Figure 11 is a view similar to Figure 10 butV taken from another angle;

Figure 12 is agplan view looking down on the drive ratchet for the conveyor or the machine;

Figure 13 is a section indicated by the line l3-l3 on Figure l1 andren-owing the connection between the drive pitman for the conveyor and the ratchet driving chain;

Figure 14 is a side view of the conveyor drive' ratchet; f

Figure 15 is a perspective view taken at one end of the machine at the top thereof and showing the interlock which holds the conveyor stationary while it is not being driven;

Figure 15 is a side View of the interlock mech anism;

Figures 17 through 2O are diagrammatic views illustrating the action of the elevator and conveyor and the orientation of the driving cranks;

Figure 2l is a side elevation of one of the work piece carrier arms;

Figure 22 is a plan view of a flipper or shifter plate carried on the elevator;

Figure 23 is a side view of said flipper or shifter plate;

Figure 24 is a view of a blanked out bar adapted for being formed into a hanger support for the carrier arm;

Figure 25 is a perspective view of the blanked out bar of Figure 24 after it has been bent to shape;

Figure 26 is a View showing the hanger of Figure 25 being utilized in connection with a current collector;

Figure '27 is a view showing the hydraulic motor drive for the conveyor and elevator;

Figure 28 is a plan view of a modified arrangement of the elevator and conveyor drive of this invention; and

Figures 29 and SO are side views of the arrangement shown in Figure 28 taken from respectively opposite sides thereof.

Referring to the drawings somewhat more in detail, Figure i diagrammatically illustrates one type of process for being carried out by the machine of this invention. In Figure l the conveyor' is moving in a counter-clockwise direction, and after the work pieces are placed cn the work piece arms supported on the carrier arms and the said carrier arms are moved to the position marked Load, the elevator lifts the carrier arms and then conveys them rightwardly to the point marked Set down point at the end of the cleaner tank. The carrier arms are then conveyed through the cleaner tank without any lifting movement until they reach the end of the cleaner tank. The elevator again lifts the arms at this point and the conveyor conveys them to the set down point at the right end of the etch tank.

The carrier arms then move through the etch tank without lifting unti1 they reach the lift point at the left end of this tank. The lifting and conveying process is then repeated to set the carrier anche 5 arras down "into the pickle tank. At theiert eine of the pickle tank the arms 'are again lifted and conveyed over to the end of the plating tank 'and are setdow'n therein.

'rhe arms then lrhove through the 'mating tank u ntn they reach 4the right end, 'at which 'point they are again lifted 4and moved over the `rinse tank. At the rinse tank the arms are lowered by theeievater and theh, when theeietator metes up, they are 'again lifted and moved over to 'the set down point 'which is 'marked nload This completes a 'cycle vand the varms 'then have the work pieces unloaded therefrom 1'and new work pieces placed thereon.

Figures 2, 3 and 4 illustrate 'the physic 'n bodiment of one form fof processing mach ery adapted for vcarrying -out afc'ycle Asuch I:as tis: ill-lustrated in Figure '1. The -machine cmprisesja pair of spaced 'columns Ill and l2 whichfniay'be formed of the channel members, 1as will be seen in Figures 2 and 4. The lower endsof these channel members "are 'connected "by the loiigie tudinally extending channel member 14 'and "are rigid yat their upper vends with similarly tlongitudinally extending channels 'I'6. The upperfand lower channel members are interconne c'ted A"by suitable tie members, 'as indicatedjat 18, and this comprises the main frameof the machina Mounted on the frame is a conveyor consisting of the upper and lower endless chains -`2llwhich pass 'around a pair `of sprockets 22 'at the'left end of the machine which are vr'no'u'ntedonja shaft 24, and 'around a similar pair'of sprockets 26 at the right end of the machine mounted'on a shaft 28. The upper of the 'chainsiU-isreceived in longitudinally'extending vchannels 3 'i ),"as will 'jbe seen in Figure 4, whereas the lower 'of the r"chains is received in corresponding'channels 3'?.V spaced along the conveyor chains `and extendingfvertically therebetween are -a plurality `of guidesj3'4g each of which comprises la pair `of spaced chan nels opening toward each other. `lfteceivable within the channels is a block 136 with rollers thereon engaging the vchannels so the block fis freely movable vertically Within the guides. blocks 36 Vcarry the `outwardly extending work piece carrier arms 38, 'as is bestseen 'in Figure 4, and from which depend work pieces 'as t'by means of the hangers v4|). n

The construction ofja carrier arnifand the supporting block therefor is best illustrated in Figure 21, and it will be seen'therein that when the carrier arm is in its down position, therefis a roller '42 that rides on the top of the'stationary frame member 44 for vsupporting the-said arm. Extending rearwardly from the block lt6 fsfal shaft supporting another'roller 46, and this -rolgler isadapted'for engagement byanlanglef48 onthe elevator mechanism to be described hereinafter, for raising the block 36 and arm -38 vertically'in its guide 34.

Turning now to lthe `elevator construction, mounted on the frameand'about the columns |10 and I2 is a vertically reciprocable structure comprising the longitudinally extending channel members 5B and 52 which are made rigid with each other by suitable 'cross ties, 'as indicated by the smaller channels at 54. Each ofthe columns I0 and 'I2 mounts therein a 'sprocket '56, and over these sprockets pass the chains 58. One end of each of the chains is secured to the elevator structure, as shown in Figur'ew, andjthe other end passes ovjer ,the aS09iei.e.d;grQ1. e- 5MG and has mountedjthereon aounterweightfu which substantially balances -the elevator load.

6 The ehairis then ekten'd downwardly and pass around the lower sprockets 6 2 the columns IUj'and lf2, and then extend upwardly to Vbe lsecured to the lower 'part of "the elevator structure again, as illustrated Yin Figure '-5.

jMoiinted along the "sides of the elevator structurefarefthe carrier arm lifting 4`angles 48, so that when the Vcoriveyormoves the arms -ove'r the saidjanglesLupward "movement of the elevator structuren/ill lift 'the Vsaid farms. It will be apparent thatthe'a'ngles 48de not "extend throughout the "length of the 'elevatorv structure, but'only from leach Alift point 'to the next adjacent set down point. Between each set down point 'and the' next adjacent h'ft p'Qint,j-the erevate'r structurecarries no liftangle so rthatthejcarrie'rfarms remain in their down position for Aconveying "work pieces throughrthe treating solution.

Allt 'will "also 'be yapparent 'that the -lift angle must be specially "formed at 'the set vdown point for releasing `the carrier'arm from the elevator. Th'is 'is preferably accomplished 'as shown in Figures "22 'and '25 'which illustrate the "construc# tion of a flipper or shifter plate 64. This plate :is positioned on the 'elevator Yat the end -of the lift vangle `48 "and with its 'upper surface in planar alignment therewith. The shifter plate, howev'er, 'is vpivoted as on the "pin, "5S Iand has -associ'- ted amel-@With `the toggle "mechanism es which ovides `,for snap v'action'of the'shifterplate i-nto ea h of Vits up and down positions. The toggle rriechanismjcomprises plate lll slidaibleover a pin y'I2 andengaging the'shifterplateatits rear edge. A 'spring 14 resists movement Vof the plate mrightwardly and thus provides for the desirable spring actionion ythe shifter plate. Mounted intheiina'chine to beengaged'by*the'shifter plate after the work piece carrier arms have Jcome lto restfonthe frame member 44 is the rod Tof-which snaps the flipper Ainto its up position so 'that as the 'eleyatorjgoes up, the plate will clear 'the roller T46 to'f the 'adjacent carrier yarm Aand leave it in, "itsjdown position. As the elevator approac'hes'theluppermost partof its travel,`ano the`r od 18 engages the flipper platey and snaps it `into its down 'position rso that when the conveyor moves another arm along the elevator, the roller 46 "tl.'i` ereof 'wil1`rideonto the Yplate 54 and be supported thereby. This arrangement of flipper plate androdsjis'provded at each'vset-down point about the Imachine.

Turning now to the drive vfor the elevator, Figlire yt'villreveal that each of the Llower "sprockets E2 lispirourited on a'shaft'te journaledin theas'sm ciated'column and 'extending Aout one side thereof "to "mount "a, drive "sprocket Passing y'around the spipckets"82A is 4a drive chained which along its upper reach 'is bolted vto a channel iefwhic'h serves as 'a stiffener 'to hold the vupper reach of theehaihngid, as will be seen in Figures @and 8 "Adjacentone ofthe rsprockets 82 kthe channel 'jisiheli'dow'n b'yj'a roller 38.

lBetween the endsof -the-'channel et there is connected 4'a pitrnan or drag link 'te "as "by the bracl'et, Vas "shown in Figure 7. The otherend fthis 'pitriian or draglinli is connected witha rotary v"crank armee carried on a drive shaft Q6 etending outwardly from v'the right 'angle drive 93 which isA driven by the drive motor lt. It will be apparent that as the shaft s@ rotate-s, the arm gllwill rotate, and this will cause the 'p itmanlito reciprocate the channel ES. Thechannei ss 'thrugh'its 'connection with the chain 'as will hause,Y the sproeiets jes and Ltheir 'shaftse'e toirtate, nist rhone dheetteh'an'd theh inthe other. This will cause the elevator structure toperiodically raise and lower. Y' Y Heretofore, most elevator mechanisms on the machines of the type described in this'application have had crank arms mounted in the base of the machine and connecting rods extending upwardly therefrom to the elevator structure, so that lifting of the elevator was accomplished by pushing upwardly on the connecting rods. It Will be evident that the first 90 degrees of rotation of the cranks in an installation of this nature will result in considerably less than one-half of the total elevator lift, due to the effective shortening of the connecting rod as it tilts relative to the vertical. The machines ordinarily do not have .suicient space for utilizing a longer connecting rod which would tend to offset this disadvantage, and, accordingly, it is difficult to obtain a steep lift pattern such as is obtained by the mechanism of this invention.

Referring briefly to the corresponding structure shown in the drawings in this application, it will be noted in Figures 17 through 2O that the lifting motion of the elevator takes place by the crank pulling on the connecting rod so that the eiective shortening of the connecting rod as it tilts following the crank adds to the movement of the crank and assists in producing the steep lift pa'ttern. As a comparison, utilizing normal connecting rod length and crank throws, the amount of elevator lift produced by ninety degrees of travel of the crank according to the prior art arrangement described above, was about forty per cent of the total elevator lift, while with the arrangement shown in this application, the first ninety degrees of travel of the crank will result in about sixty per cent of the total elevator lift.

Turning now to the conveyor drive, the shaft 2d at the left end of the machine, as viewed in Figure 3, has mounted thereon adjacent its lower end, a ratchet plate |02 and rotatably mounted on the shaft beneath the ratchet plate is a pawl carrying plate its carrying the pawl member its for cooperation with the notches |68 in plate m2. The pawl carrying plate |84 is bolted to a sprocket lii which is also freely rotatable, on the shaft 2d. Fassing around the sprocket H6 and around an idler sprocket H2 is a chain I4 which is pivotally connected, as best seen in Figure 13, with the end of a pitman or drag link HS.

The drag link or pitman H5 is connected as shown in Figure 9, where it will be seen that the right end of this member is pivotally connected with a lever ||8 journaled on the frame of the machine, as at |23. The lever H8 has a slot |22 therein that receives a roller |24 on the end of an arm 25 mounted on the opposite end of the shaft te from the arm 9d. It will be apparent that the lever i I and the arm |26 form a quick return (Shaper) type mechanism such that the drag link HS is driven in one direction during substantially less than half a revolution of arm 52s, and is driven in the other direction during the remainder of the revolution of the said arm. The chain lit may be kept tight by means of an adjustable link therein as will be seen at |28 in Figure 1l.

As mentioned before, it is desirable in a machine of the type described to obtain a transfer pattern for the carrier arms as steep as possible during the lifting and lowering of the arms and as ilat as possible during the conveying of the arms. The conveyor and elevator drive mechanism described above accomplishes this object as will be seen upon reference to Figures 17 through 20. l

In these figures, the positions of the elevator crank arm 94 have been numbered from zero through 12, zero being the lowermost position of the elevator, and 12 being its uppermost position, and from 12 through the minus numbers back to Zero, the negatively numbered path lndicating downward movement of the elevator.

VIn Figure 17 the elevator crank is shown with the elevator in its down position. The conveyor drive crank arm |26 is at thistime moving the lever |8 clockwise, and thus carrying the pawl |06 around the periphery of the ratchet wheel in a clockwise or idle direction.V

Figure 18 shows the arrangement as the conveyor crank begins its working movement. It Will be noted that at this time the elevator crank has reached position 8 so thatY the elevator isV near its uppermost position. The elevator has, in fact, completed four-fifths of its upward travel, as will be seen on reference to Figure 17.

In Figure 19 cranks are shown with the elevator crank gli at position 12, indicating that the elevator is in its extreme uppermost position. It will be noted that the conveyor crank armV |26 is at this time half way through its working stroke and is at position 9.

In Figure 20 the conveyor crank arm |26 is at position -5 and has completed its work stroke. Further movement of conveyor crank |2 will merely return the lever H8 and pawl l to a new driving position. In the position shown in Figure 2G, the elevator crank arm trhas reached position -8 so that the elevator has completed only one-fifth of its downward travel. t will be apparent that all of the conveyor movement takes place during the time the elevator occupies the upper fifth part of its travel. The transfer pattern for the carrier arms is thus vertical on both sides and relatively flat across the top. The actual pattern obtained is indicated at the left end of Figure 17. It will be apparent that the exact shape of this transfer pattern could be modified to some extent by adjusting the pivot of lever ||8 relative to the center of drive shaft 95, and by making similar changes in the structure.

lt will also be evident that a transfer pattern, as shown in Figure 17, permits a minimum length of machine because the smallest amount of clearance is necessary between the work piece carriers and the ends of the tank and that the overall height of the machine is kept in at a minimum because there is substantially no waste movement of the elevator and conveyor in order to clear the partitions between the tanks.

It is preferable to maintain the elevator and conveyor in exact synchronism in order to insure that the carrier arms will always occupy exactly the same positions when the elevatorclifts and lowers them. According to this invention, this is accomplished by providing a pivoted latch member |30 having a pair of teeth |32 thereon adapted for dropping into a pair of roller spaces |34 on one of the upper sprockets of the conveyor chains 20. Inasmuch as the elevator is near the top of its stroke before the conveyor is actuated, the said elevator may carry an adjustable abutment |36 adapted for engagement with an abutment |38 on the pivoted plate |30 so as to lift the said plate from its locking position illustrated in Figure 16 to its unlocking position illustrated in Figure 15, The provision of this interlock prevents the. elevator and conveyor from ever ge tting outoistep..

As mentioned. previously, it is.y desirable. to.. keep vthe amount. of carry-over. from. one solution. to

another at a. minimum. .For this. purpose. the drive. motor. arrangement shown inFigureZfl may be. employed. In this View the. drive. motorv is a .cam 1.513. onv shaft 96.. As shaft 9.5. rotates. and

the. elevator commences its upwardmovement the raised. part. |60 oi cam. |58. acts. on. lever it?. to increase. the, restriction of. valve; |55.. This. slows the: motor. |511- down andV gives. the. work pieces being., lifted. from the solutions. ample time, t drain. After thel lever L62. rides oil the. raised part |60, the machine, of course, resumes. its full speed. of movement.. lt will be, apparent. that many other similar arrangements could be. employed for regulating. the, speedI of, operation. of the. drive: mechanism.. For. example, the. cam. |158 could operate directly on. the. pump displacement control member |54. and equivalent results would obtain.. Similarly, other types of valves. could be employed in connection-.with controlling. the. fluid flow through the motor |53;

Associated. with the` carrier arm 38,. as. shown in: Figure. 21 arecurrent collector fingers. Il@ which bear on a conducting rail |12. when the arms. arev in their down position. Similarly, the arm-s carry the hanger members dil towhich. are connected the. work pieces or other hangers. for the work pieces. The members lill, the radially projecting armsv ot the carriers. and the fingers must all be electrically conductive. Heretoore it has. been customary to form these members` of relatively heavy cast sections. According to this invention, a greatly simplified arrangement has been devised which results in more inexpensive construction, which is. more easily fabricated, and which can be adjusted readily to accommodate difterenttypes of work pieces and work piece hangers.

Figures 24,. 25 and 26 illustratey this phase of my invention. In Figure 24 there is illustrated a barv which is blanked out from copper or some other suitable. ductile highly conductive material. In thev center of the bar is. a dumbbell shaped aperture lle. After blanlring, the bar is ben-t. to the shape shown. in Figure 25, and it will be seen that the dumbbell shaped aperture forms. an. opening for receiving the out.- vvardly eze-.tending arm of the work piece. carrier. The slot connecting the enlarged end parts of the aperture il@ permits clamping of the bentup bar on the arm as by the. bolt llt, thereby to insure a rigid connection between the members and one` which has goed current carrying qualities. The downward extending end parts of the two sides of the bar receive between them the hanger har 18.

In. Figure 26, the bar is shown adapted for a current collector. ln this ligure the lower ends of the bar receive between them, as at la, the upper end of a bracket |82 which resiliently supports a plurality of lingers 84 whichA ride on the top of va rail |35 when the carrier arm is in its down position. lt will be evident that the improved construction which I have provided in connection with the bar shown in Figure 24 1'0 highly useful both. forsupporting work piece hangers. and7 tor connecting contact fingers with the carrier. arm..

The. machine. which has, beendescribed above is, a, processing machineof a rather general type and is. adapted for handling,v any type of work piece including the largest and. heaviest. thereOf. In. many instances such as` in the jewelry. art

'andi allied. trades,` a much smaller and lighter machine. canY be used` In, connection with such lighter types of machines, Iv have embodied my .improved conveyor and'. elevator drive in the form illustrated". in Figures 23 through 30. Referring to. these. figures.. the two crank, arms which.. drive. the elevator and. conveyor drives .are shown at' 219e and. 2.1321.. respectively. The

elevator drive crank 2 00; is connected by a. chain 2M with a. drive, sprocket 265. carried on a. shaft 22,8 that. mounts.. in. the center. or theV machine jframe a. large sprocket 2150;.. The. sprocket. 2li-0 in turn receives. the. ends. oi, the, elevator lift chains H2... It will; be noted that. the chains 212 each pass. part-Way. arouncl the sprocket 2t@ and are rigidly connected therewitl'lv at, their ends, as at. 2M. It will. be. evident. that. rotation of the crank Zll will' cause reciprocation of the chain 2621' to turn the sprocket Zus., shaft. 2&8 and sprocket; 2113,. first. in one. direction, and then in the other. This, in. turn.. will cause reciprocation oij the chains. 2|2 and alternately raise and lower the elevator.. The amount of rotation. imparted to the sprocket. 2m. is somewhat less than one-half revolution in eachA direc.- tion.l so that. chains L2 never ride. onA top of each. other, and. a. single. sprocket, member suf.-

iices for driving both. the said chains.y

In other instances, when it isv necessary for sprocket. 2li@ to rotate. more. than one-half revolution two of the said. sprockets. may bel emplayed. so the chains 2512 never have. any ehren runny for riding over. one another.

The conveyor drive crank 2&2 is connected with the naWl supporting plate It@ by means oij a first. chai-n. 215. that. passes around the sprocket connected with, thev pawl supporting plate to a spring ala at one end and to a second chain 221i at the other end and which, in turn, is connected with the end of the. crank 292,. It. is necessary to. provide. two. chains 2|@ and .221i because one thereof. is flexible in the horizontal plane. for passing about the, drive sprocket Ht., and the other thereof, is ilexible in the vertical plane for passing between the guide rollers 2.2.2. u A drive motor and speed reducing unity aty 22a 1s connected for driving the shaft which sup.- pcrts the crank arms ,230; and 2132..

It willv be noted, especially in Figures 28 and 29, that the guide rollers 222 for the conveyor drive chain 226 are substantially farther from the crank arm 2il2 than the guide rollers 225 for the elevator drive chain 2M are from the crank arm 28e. Because of this, the movement of the conveyor is substantially harmonic, whereas a movement of the elevator is substantially different from harmonic. rThe elevator rises rapidly, remains elevated with substantially little movement during considerable amount of movement of its crank arm, and then sets down rapidly. lt will be noted that the orientation of the crank arms Zili) and 2dr is such that all of the conveyor movement takes place while the elevator is adjacent its uppermost position. It willl be understood that an interlock similar to that Shown in Figures l5 and 16 could be employed in connection with the embodiment shown in connection with Figures 23 through 3Q. Likewise, the drive arrangement illustrated in Figure 27 could be embodied, if desired, for reducing the carryover of solution from one tank to another.

It will be evident that a quick return drive such as is shown for the conveyor mechanism inV Figures 9 and l0 could be employed for the conveyor of the arrangement shown in Figures 28 through 30, if desired. However, since this machine is designed for carrying very light racks m work pieces, there may be some tendency for these racks to whip outwardly in passing around the ends of the machine at high speed. For this reason it is usually preferable to employ the crank and chain drive arrangement shown, rather than the quick return type drive.

From the foregoing description it will be evident that I have provided an improved elevator and conveyor driving mechanism for a processing machine which results in a transfer pattern for the carrier arms which is steep on the sides and relatively dat on the top. The drive is relatively simple to construct, and is, therefore, inexpensive, light, and easily maintained. It will be apparent that, due to the drag link connection of the driving arms with the elevator and conveyor drives, the drive mechanism according to this invention could be mounted on a processing machine of any size and as many lifting connections could be made to the elevator as was necessary properly to operate it. This invention also provides for keeping the elevator` and conveyor drives synchronized, so that it is impossible for the machine operator to get the conveyor chain out of its proper position relative to the elevator, as has sometimes occurred with arrangements of the prior art by the operators shifting the conveyor chains to untangle work piece hangers from obstructions. K

This invention has also provided an improved arrangement for supplying motive power to the elevator and conveyor drive such that the speed of operation of these drives can be regulated during any part of the operating cycle. The improved supporting brackets also provided by this invention contribute materially to the operating efliciency of the machine and to its economical construction because they are lighter, more inexpensive and more easily fabricated than theY corresponding cast members employed heretofore.

It will be understood that this invention is susceptible to modification in order to adapt it to different usages and conditions, and, accordingly, it is desired to comprehend such modifications within this invention as may fall within the scope of the appended claims.

I claim:

l. In a processing machine having a frame with spaced upstanding columns; a vertical shaft in each end of the frame and sprocket means thereon, conveyor chain means passing around said sprocket means and carrier arms Yon the conveyor, a ratchet drive on one of said shafts for driving said conveyor; an elevator Vmounted about and extending between the said columns, a pair of vertically spaced sprockets rotatable on horizontal axes in each of said columns and an elevator chain passing over the spaced sprockets and connected to the elevator, a drive sprocket connected with one each of said Vpairs of spaced sprockets, `and a drive chain passing therearound; a drive shaft and rst and second crank arms mounted thereon, a drag link connecting said first arm with the upper reach of said drive chain, a stiffener member connected to said drive chain along with said upper reach thereof, and a quick return mechanism connecting the second arm with said ratchet drive so the conveyor is driven by said second arm during substantially less than half a revolution thereof, said arms being so arranged on said drive shaft that the elevator is in its extreme uppermost position when the conveyor has completed exactly one half of its movement.

2. In a processing machine; a frame, conveyor means on said frame for conveying work piece supporting arms therealong, elevator means on said frame separate from said vconveyor means for elevating said arms, drive means for said conveyor and elevator means so interconnected that the first and last parts of the travel of the elevator means takes place in the absence of movement of said conveyor means, and al1 of the movement of the conveyor means takes piace while the elevator means is adjacent its uppermost position, a drive motor for said drive means, and means operated by said elevator for slowing down the speed of said motor during the initial part of the lifting movement of said elevator.

3. In a processing machine; a frame, conveyor means on said frame for conveying work piece supporting arms therealong, elevator means on said frame for elevating said arms, drive means for said conveyor and elevator means so interconnected that the first and last parts of the travel ofV the elevator means takes place in the absence of movement of said conveyor means, and all of the movement of the conveyor means takes place while the elevator means is adjacent its uppermost position, a hydraulic drive motor for saidv drive means, means responsive to the initiation of the lifting movement of said elevator for slowing down said drive motor, and means responsive to a predetermined amount of lift of said elevator for again speeding up said motor.

4. In a processing machine having a frame with a conveyor and an elevator on said frame for respectively conveying and elevating work piece supporting arms; a drive shaft and a pair of crank arms drivingly connected therewith, one of said arms being connected with said elcvator so that as the said arm rotates the elevator moves up and down, a reciprocable element connected with the other arm and ratchet means connecting the reciprocable element with the conveyor for driving the conveyor in one direction of movement of said element, said arms being so oriented that the whole of the conveyor movement takes place while the elevator is adjacent its uppermost position, a drive motor connected with said drive shaft, a cam driven by said shaft and means controlled by said cam for slowing down said motor during a portion of the lifting movement of said elevator.

5. In a processing machine; a frame, conveyor means on said frame for conveying workpiece supporting arms horizontally therealong, elevator means on said frame separate from said conveyor means engageable with said arms and vertically reciprocable for elevating said arms, intermittent drive means for said conveyor and continuous drive means for said elevator means so interconnected that movement of the elevator means over the lower part of the travel thereof takes place in the absence of movement of said conveyor means, and all of the movement of the conveyor means takes place while the elevator means is adjacent its uppermost position, a drive motor for said drive means, and means operatively connecting the said drive means for the elevator with the elevator for slowing down the speed of movement of said elevator adjacent its uppermost position during travel of the elevator up and down.

6. In a processing machine; a frame, conveyor means on said frame for conveying the workpiece supporting arms horizontally therealong, elevator means on said frame engageable with said arms and vertically reciprocable for elevating said arms, drive means for driving said elevator continuously in up-and-down movements, an intermittent drive for said conveyor, a rotary crank arm, and variable speed means connecting said rotary crank arm with said drive means operable to drive said drive means at a varying rate of speed such that the elevator moves more slowly during the upper portion of its travel than during the lower portion of its travel, said intermittent drive for said conveyor being driven synchronously with said crank arm and being operable for moving the conveyor while the elevator is adjacent the uppermost position thereof.

7. In a processing machine having a frame with spaced upstanding columns; a vertical shaft in each end of said frame and sprocket means thereon, conveyor chain means passing around said sprocket means and carrier arms on the conveyor chain means movable horizontally therewith and vertically thereon, a ratchet drive on one of said shafts for driving said conveyor chain means, an elevator in the frame engageu able with the arms to raise them vertically on the conveyor chain means, sprocket means in each column and elevator chains passing thereover and connected to said elevator, drive chain means drivingly connected with said elevator chains, a drive shaft, first and second crank arms mounted on said drive shaft in fixed angular relation, a first reciprocable element connecting said rst crank arm with said drive chain means and arranged to be in parallel contiguous relation with the first crank arm when the elevator is in its uppermost position whereby the slowest movement of the elevator obtains during the upper portion of its travel, and a second reciprocable element connecting the second crank arm with said ratchet drive so said conveyor is driven by said second crank arm during not more than one-half a revolution thereof, said arms being so oriented on the drive shaft that the elevator is in its extreme uppermost position when the conveyor chain means has completed one-half of its movement.

8. In a processing machine having a frame with a conveyor and elevator for respectively horizontally conveying and vertically elevating workpiece supporting arms; a first rotary crank arm for driving said elevator continuously in an up-and-down direction, a reciprocable element connected between said first crank arm and said elevator operable to drive the elevator at a slower rate during the upper portion of the elevator travel than during the lower portion thereof, a ratchet drive for the conveyor, a second reciprocable element connected at one end with the ratchet drive so the conveyor is driven in only one direction of movement of the said element, a second rotary crank arm connected in rigid angular relation with said iirst crank arm to rotate therewith, means connecting said second crank arm with said second reciprocable element for movement of said second reciprocable element so movement of the said reciprocable element in its said one direction takes place within less than the period required for said second crank arm to turn through one-half a revolution, said crank arm being so oriented angularly that the movement of said second reciprocable element in its said one direction takes place while the elevator is adjacent its uppermost position, and means for engaging and locking said conveyor in the foremost position to which it has been moved by said ratchet drive, said locking means being operated by said elevator into unlocking position as the elevator approaches its uppermost position and into locking position when said elevator retracts from its uppermost position.

9. In a processing machine having a frame with a conveyor and an elevator for respectively horizontally conveying and vertically elevating workpiece supporting arms; a first crank arm connected with the elevator rotatable for continuously reciprocating the elevator in the vertical direction, a ratchet drive for moving said conveyor and a reciprocable element connected at one end with said ratchet drive so the conveyor is driven in only one direction of movement of said element, a'lever stationarily pivoted at one end and pivotally connected at its other end to the other end of said element, a second crank 'arm rigidly connected in angular relation with said rst crank arm to rotate therewith, a slot in said lever and means on said second arm slidably working in said slot, said second arm being so located relative to the lever that said means is closest to the pivotal support of said lever When the lever is being driven to move said element in its said one direction so that said second arm makes substantially less than onehalf revolution in driving said reciprocable element in its said one direction and substantially more than one-half revolution in driving said reciprocable element in the other direction, said crank arms being so angularly arranged that the movement of said reciprocable element in its said one direction takes place while the elevator is adjacent its uppermost position.

l0. An arrangement as set forth in claim 7 in which the said reciprocable elements comprise flexible members.

l1. An arrangement according to claim l0 in which guide rolls are provided for the flexible elements spaced from the said crank arms, and with the guide rolls for the said first reciprocable element being located substantially closer to the pertaining crank arm than the guide rolls for the second reciprocable element.

12. An arrangement according to claim 10 in which both the elevator and the said ratchet drive are biased so as to maintain the said reciprocable elements under tension at all times.

GUERIN TODD.

References Cited in the iile of this patent UNITED STATES PATENTS Number Name Date 285,943 Ames Oct. 2, 1883 '798,833 Ruif Sept. 5, 1905 2,145,399 Llewellyn Jan. 31, 1939 2,175,788 Todd Oct. 10, 1939 2,214,262 Todd Sept. 10, 1940 2,398,059 Turner Apr. 9, 1946 FOREIGN PATENTS Number Country Date 729,019 France July 16, 1932 

